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 Solar
Sizer |
Lighting
Lighting Guide
Fluorescent lights are the most efficient, halogens use
twice the energy for the same amount of light, and regular incandescent
bulbs use four times more power than fluorescents. Artists prefer
halogens for sharp color, workers prefer fluorescents for less shading.
More important than using energy-efficient lighting is turning off lighting
that isn't needed.
If your computer won't open the Flash version of the Solar Sizer, you'll
have to do this the pen and paper way: for each table, pick the category
that best describes your needs and write down the watt-hours. (If your
computer will support Flash, click on the Solar Sizer tab above.)
| Usage |
Watt-hours |
| 2 fluorescents
on at a time (avg.) | 240
| | 4
fluorescents on at a time | 480
| |
6 fluorescents or halogens on at a time
|
1250 | |
20 halogens or incandescents on at a time |
6,000 |
Heating & Cooling
Solar Heating &
Cooling Guide
Passive solar heating, with large insulated windows facing south, can
pay for itself in months not years. Wood stoves and propane wall heaters
are good for backup (they don't use electricity). Forced air and radiant
floor systems (that aren't designed with electrical efficiency in mind)
can consume much of your precious energy, when you need it the most: the
dead of winter. We can assist with designing high efficiency radiant floor
pumping systems that work on solar.
Air conditioning is NOT practical, except for super efficient evaporative
cooling designs which only work well in areas with low humidity (below
40%). Fans are OK, as long as they're not left on continuously. Ceiling
fans aren't recommended, simply because they are almost always
left on continuously.
| Usage |
Watt-hours |
|
Passive solar heated + woodstove
| 0 |
|
Simple radiant floor heat, one DC pump
| 250 |
|
Regular zoned floor heat, AC pumps
| 1250 |
|
Forced air blower system
| 6,000 |
Water Pumping
Water pumping is your most important power use. Water system energy requirements
can range from low to high. On the low end is a rain catchment cistern
with a small DC pump. But if your well is deep (over 200 ft), if you are
irrigating a garden, or if you have a large family that uses a lot of
water for bathing, washing clothes, etc., you will use as lot of energy.
The average American uses close to 100 gallons/day per person. Some solar
enthusiasts use less than 5 gallons/day.
| Usage |
Watt-hours |
| DC pump from cistern |
100 | |
DC pump in well (under 200 ft deep) |
500 | |
AC deep well pump (to 400 ft) or garden irrigation |
1000 | |
Very deep well and/or irrigation system |
5,000 | Refrigeration
Refrigerator
Tech Guide
Propane refrigerators don't use precious electricity, but do use fuel. There
are both AC and DC electric friges. AC friges are less expensive, and Energy
Star models can be very efficient.
| Usage |
Watt-hours |
| Propane Fridge | 0
|
| Small Sunfrost (DC), or modified Danby (AC) |
500 |
| Energy Star 18 cu ft Kenmore (AC) |
1000 |
| 22 cu ft Fridge & Deep Freeze 10 cu ft. (AC) |
3,000 |
Kitchen Appliances
Most kitchen appliances, like microwaves, blenders, and pop-up style
toasters, work fine on solar power. Even though they can use a lot
of power, they usually are only on for a few minutes each day so the total
energy they consume is low (that is, unless you live on toast).
Crock pots, toaster ovens, coffee makers with a warmer plate, etc. are
not recommended because they may stay on for hours. Use a coffee maker
with an insulated carafe, it only takes power for 5 minutes when it's
making coffee, then it's off.
|
Usage
|
Watt-hours
|
|
Good-old hand operated (anything)
|
0
|
|
Microwave, coffee grinder, 2 slice toaster, blender,
coffee maker (no warmer)
|
350
|
|
Above + dishwasher, garbage disposal
|
1250
|
|
Above + even more: coffee maker w/ warmer, bread
maker, toaster oven
|
3,000
|
Household Appliances
As before, appliances that stay on for long periods of time (like an
electric blanket) are much more of a problem than things that are on for
short periods (a hair dryer). Some new appliances like washing machines
have computer controls that are not always compatible with mod-sine inverter
or generator power.
| Usage |
Watt-hours |
|
Hand operated (anything)
|
0 | |
Hair dryer, old washer 2 loads/week
|
600 | |
Washing machine & gas dryer several loads/week
|
1250 | |
Above + pool or hot tub, towel warmer, electric blanket, etc. |
5,000 |
Electronics
Electronics
on Solar Guide
Most stereos, computers, and TVs work well on solar power. Unfortunately
most also have what is known as "Phantom Loads," that
is, they consume power even when turned off. This is to power their
remote controls or built in clocks, etc. The solution is to unplug these
devices when not in use or plug them into a switchable power strip. These
phantom loads, while very small (under 20 watts), keep the inverter on
24/7, and can take several solar panels worth of energy production. Portable
devices like jamboxes and laptop computers usually use much less power
(and space) than desktop models. For example: a desktop computer uses
as much energy in one hour as a laptop uses in 5 hours or more.
| Usage |
Watt-hours |
|
small CD player, radio
|
100 | |
13" TV for couple of hrs, VCR, laptop computer |
250 | |
19" TV, satellite, desktop computer for couple
of hrs/day
|
900 |
|
Big screen TV & desktop computer, both for
several hrs/day
|
3,000 |
Power Tools
Most power tools work fine on solar power. If the inverter is large enough
to initially start the motor, it should continue to work. Most tools are
really on for just a few minutes at a time, so even though they take a
lot of power, it doesn't add up to very much total energy. Air compressors
can take a huge amount of electricity to start, so even though their total
energy consumption may not be huge, you may need a large inverter to actually
run one. Big tools require big inverters.
| Usage |
Watt-hours |
|
Sander, drill, or jigsaw
| 240 |
|
Circular saw, hammer drill
| 480 |
|
Air compressor, table saw, cement mixer
| 1250 |
|
The above + arc welder, full time shop
| 12,000 |
The Bottom Line
Add up your watt-hour choices from each section to get your Total
Watt-hours per day. This number may be as low as 1000 watt-hrs (1
kWh) or it may be as high as 20,000 watt-hrs (20 kWh).
If it is high you need to start changing your planned lifestyle, because
that lifestyle could cost you a fortune.
Check out the Package systems to get an idea what price range you fall
in. For a more accurate load analysis, print
out our Solar Sizer Basic (PDF)
For the technically minded that are ready, you can download
our Solar Sizer Excel Spreadsheet.
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